Publication detail

Analysis and efficiency measurement of electromagnetic vibration energy harvesting system

HADAŠ, Z. VETIŠKA, V. VETIŠKA, J. KREJSA, J.

Original Title

Analysis and efficiency measurement of electromagnetic vibration energy harvesting system

English Title

Analysis and efficiency measurement of electromagnetic vibration energy harvesting system

Type

journal article in Web of Science

Language

en

Original Abstract

This paper deals with the efficiency analysis of developed electromagnetic vibration energy harvesting systems. The efficiency analysis of this energy harvesting system is specified and a linear model of the vibration energy harvesting system is simulated to determine theoretical limits. The influence of individual parameters of vibration energy harvesters is evaluated by the simulation model. Three vibration energy harvesting devices, developed at Brno University of Technology, were measured and their efficiencies were consecutively calculated from the measured data. Vibration tests of these harvesters were done with a lightweight vibrating structure of a steel beam where the effect of the vibration energy harvester operation is noticeable. The effects of used electronics and power management circuit for different levels of excited mechanical vibrations are presented. Realized analyses and measurements will be used for future improvement of vibration energy harvester design; mainly in applications of lightweight vibrating structures where the vibration energy harvester can affect mechanical vibrations in feedback.

English abstract

This paper deals with the efficiency analysis of developed electromagnetic vibration energy harvesting systems. The efficiency analysis of this energy harvesting system is specified and a linear model of the vibration energy harvesting system is simulated to determine theoretical limits. The influence of individual parameters of vibration energy harvesters is evaluated by the simulation model. Three vibration energy harvesting devices, developed at Brno University of Technology, were measured and their efficiencies were consecutively calculated from the measured data. Vibration tests of these harvesters were done with a lightweight vibrating structure of a steel beam where the effect of the vibration energy harvester operation is noticeable. The effects of used electronics and power management circuit for different levels of excited mechanical vibrations are presented. Realized analyses and measurements will be used for future improvement of vibration energy harvester design; mainly in applications of lightweight vibrating structures where the vibration energy harvester can affect mechanical vibrations in feedback.

Keywords

Efficiency measurement; Electromagnetic vibrations; Energy harvesting systems; Power management circuits; Vibrating structures; Vibration energy harvesters; Vibration energy harvesting; Vibration energy harvesting device

Released

13.07.2016

Publisher

Springer-Verlag

Location

Berlin Heidelberg

ISBN

0946-7076

Periodical

Microsystem Technologies

Year of study

22

Number

7

State

DE

Pages from

1767

Pages to

1779

Pages count

13

URL

Documents

BibTex


@article{BUT126291,
  author="Zdeněk {Hadaš} and Vojtěch {Vetiška} and Jan {Vetiška} and Jiří {Krejsa}",
  title="Analysis and efficiency measurement of electromagnetic vibration energy harvesting system",
  annote="This paper deals with the efficiency analysis of developed electromagnetic vibration energy harvesting systems. The efficiency analysis of this energy harvesting system is specified and a linear model of the vibration energy harvesting system is simulated to determine theoretical limits. The influence of individual parameters of vibration energy harvesters is evaluated by the simulation model. Three vibration energy harvesting devices, developed at Brno University of Technology, were measured and their efficiencies were consecutively calculated from the measured data. Vibration tests of these harvesters were done with a lightweight vibrating structure of a steel beam where the effect of the vibration energy harvester operation is noticeable. The effects of used electronics and power management circuit for different levels of excited mechanical vibrations are presented. Realized analyses and measurements will be used for future improvement of vibration energy harvester design; mainly in applications of lightweight vibrating structures where the vibration energy harvester can affect mechanical vibrations in feedback.",
  address="Springer-Verlag",
  chapter="126291",
  doi="10.1007/s00542-016-2832-4",
  howpublished="print",
  institution="Springer-Verlag",
  number="7",
  volume="22",
  year="2016",
  month="july",
  pages="1767--1779",
  publisher="Springer-Verlag",
  type="journal article in Web of Science"
}